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Call for Papers: Special Issue on Muscle Strength and Fatigue Modelling

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  • Call for Papers: Special Issue on Muscle Strength and Fatigue Modelling

    Website links
    Call for papers at the journal website http://www.inderscience.com/info/ing...p?jcode=ijhfms
    Information on preparing and submitting articles can be found at the publisher website http://www.inderscience.com/info/ina...hor_submit.php.
    __________________________________________________ ____________________________________

    INDERSCIENCE PUBLISHERS
    International Journal of Human Factors Modelling and Simulation (IJHFMS)
    Special Issue on: “Muscle Strength and Fatigue Modelling – Theory, Development, and Implementation”


    Guest Editors

    Ting Xia, PhD, Assistant Professor, Palmer College, USA
    Liang Ma, PhD, Associate Professor Tsinghua University, China
    Maury A. Nussbaum, PhD, Professor, Virginia Tech, USA


    Description

    Human factors engineering is a multidisciplinary field dedicated to improving efficiency and productivity and reducing injuries and disorders, as well as issues associated with usability, comfort, organizational design, etc. To achieve these goals, it is often critical to understand human physical capabilities, including range of motion (ROM), muscle strength, and fatigue, and the individual and environmental factors that affect them. Such knowledge is also important for rehabilitation science and related fields, as the prompt recovery of physical capabilities is essential for patients (e.g., to improve their quality of life and early return to work).

    In recent decades, there has been a substantial increase in our abilities to solve ROM-related problems, such as reachability, due to the development of advanced, multi-joint kinematic theories and methods. On the other hand, existing knowledge regarding muscle strength and fatigue remains inadequate in several respects, and is often limited to single-joint and task-specific levels. This lack of applicable knowledge is largely a result of the inherent complexity of muscle strength and fatigue, and current limitations in theories and methods for modelling and assessing these aspects of human capabilities.

    This special issue will report on the frontiers of research on muscle strength and fatigue, including theories, modelling techniques, and assessment methods. New data on muscle strength and fatigue are also considered critical, particularly for purposes of evaluation and design. Articles providing original research, systematic literature reviews, and/or overviews of historical and current developments are sought.


    Subject coverage

    Topics of interest include, but are not limited to, the following:

    • Single- and multi-joint muscle capacity (strength)
    • Theories and methods related to modelling multi-joint and/or multi-planar muscle strength
    • Experimental and analytic methods for muscle force assessment, particularly under the submaximal exertion conditions
    • Prediction of muscle strength based on anatomical feature of muscles including cross-sectional area, fiber pennation angle and moment arm, and their changes with varying joint angles and exertion levels
    • Quantitative analyses of muscle strength differences between healthy and physically impaired populations
    • Novel working definitions of fatigue at the joint and whole body levels that are suitable for workplace implementation
    • Fatigue assessment and/or measurement, both locally and globally (whole body)
    • Theories and methods for fatigue modelling, including data-driven, physiology-based, and phenomenological (parameter-based) approaches
    • Prediction and control of fatigue in the workplace, for tasks involving either simple (e.g., prolonged static) or more complex (e.g., repetitive, intermittent) exertions
    • Prediction and control of fatigue in rehabilitation, for treatments involving natural (e.g., exercise) and/or artificial (e.g., functional electrical stimulation) techniques
    • Data on muscle fibre-type composition and relevant assessment methods
    • Critical review of studies on muscle strength and fatigue for the purposes of meta-analysis, reliability analysis, or database generation


    Notes for Prospective Authors

    Submitted papers should not have been previously published nor be currently under consideration for publication elsewhere. Previous work published for conferences may be submitted, but only if the submission represents a substantial expansion (to be determined by the editors), text recycling is avoided, and relevant written permissions have been obtained from any copyright holders of the original paper.

    All papers will be refereed through a peer-review process.

    All papers must be submitted online. Please read our information on preparing and submitting articles http://www.inderscience.com/info/ina...hor_submit.php.


    Deadlines for Submission

    Submission of Manuscripts: 15 November, 2013
    Notification to Authors: 28 February, 2014
    Revised Versions Due: 31 March, 2014
    Final Versions Due: 30 April, 2014


    Guest Editor(s) details

    Ting Xia
    Palmer Center for Chiropractic Research
    Palmer College of Chiropractic
    741 Brady Street
    Davenport, IA 52803
    United States
    Email: ting.xia@palmer.edu


    Liang Ma
    Industrial Engineering
    Tsinghua University
    Shunde Building North 411
    Beijing, 100084
    China
    Email: liangma@tsinghua.edu.cn


    Maury A. Nussbaum
    Industrial and Systems Engineering
    Virginia Tech
    521 Whittemore Hall (0118)
    Blacksburg, VA 24061
    United States
    Email: nussbaum@vt.edu
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